The main advances of our devices are: Intelligent sensors - each sensor is able to recognize and classify objects independently; Flexibility - addition or removal of sensors does not disturb the real-time working of the system; Mobility - each sensor can be positioned and repositioned without the need of special equipment; Assistance - The command post control center software can do real-time analysis and recommend for possible actions consistent with predefined procedures.

The new generation of seismic sensors was created to enhance the capabilities of the sensors in terms of accuracy (recognition between human penetration/intruders, vehicles and/or occasional events in given territory), reliability and timeliness in the detection and identification of violators of the security and the protection system of critical infrastructure.
The management and communications of these sensors are compatible with all products developed and manufactured by the Center for the security and protection of critical infrastructure.

The BLUEBEE devise translates the sensor system radio signals to well-known Bluetooth standard and vice versa. The devise is paired with the smartphone and allows the customer to make local checks and bind the sensor with his GPS coordinates.

The BEEHIVE cell radio communication system consists of three type radio transceiver modules. The radio network is designed to collect and relay information from all sensors located in the sensor field.

Each Radio Transceiver Modulus establishes a mesh network, which has the following advantages: Network setup is simple; More flexibility to expand the network; All nodes can sleep. No single point of failure associated with relying on gateway or coordinator to maintain time synchronization. Allowing a node to sleep reduces power consumption, which is especially helpful for nodes that are battery powered; Additionally, the wireless protocol uses a simplified addressing method, which improves network setup and troubleshooting; Interoperability: Proprietary; Interference Tolerance: 900 MHz: Frequency-Hopping Spread Spectrum (FHSS); Addressing: MAC address (64 bit); Protection against unauthorized access to the network: Once a network is established, access to the network is granted only if the MAC address of the device is among a list of trusted MAC addresses.

The Passive Infrared (PIR) Sensor provides thermal indoor/outdoor motion of intruders within detection area. This Sensor is passive, non-contact type sensor and is designed to operate with battery power supply. Microprocessor signal processing is using for adaptive threshold adjustment and reduction of false alarms. The PIR Sensor is equipped with wireless module for transmission of alarm signal.

The integration of both microwave and PIR technologies provide determination of detected object direction and practically exclude false alarms. The Receiver unit is equipped with wireless module for transmission of alarm signal.

The Microwave Barrier is developed for detection of movement of personnel and vehicles through a detection line. The barrier consists of Transmitter Unit and Receiver Unit. Both units are battery operated.

The Seismic Sensor is developed for the purpose of perimeter security and/or protection of critical infrastructures. The main idea is to recognize between human penetration/intruders, vehicles and/or occasional events in given territory. After the real-time signal analysis, the Seismic Sensor sends remotely the code of the recognized object to the Command and Control Center.

The Thermal Imaging Camera is a compact, energy-autonomous device. It produces sharp images of objects in motion during night conditions, haze, smoke, dust and fog. Advanced Computer Vision algorithms are embedded in a micro-processor situated in additional box together with battery power supply.

The Specialized Camera is a compact, energy-autonomous device with interchangeable lenses and easy within minutes installation. It has a high-sensitivity and high dynamic range CMOS imaging sensor chip making it operational at various illumination conditions. It is supplied with infrared LED emitters for night conditions. Advanced Computer Vision algorithms are embedded in a micro-processor situated inside the Camera’s box.